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Properties of doublecortin-(DCX)-expressing cells in the piriform cortex compared to the neurogenic dentate gyrus of adult mice

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Item Type:Article
Title:Properties of doublecortin-(DCX)-expressing cells in the piriform cortex compared to the neurogenic dentate gyrus of adult mice
Creators Name:Klempin, F., Kronenberg, G., Cheung, G., Kettenmann, H. and Kempermann, G.
Abstract:The piriform cortex receives input from the olfactory bulb and (via the entorhinal cortex) sends efferents to the hippocampus, thereby connecting the two canonical neurogenic regions of the adult rodent brain. Doublecortin (DCX) is a cytoskeleton-associated protein that is expressed transiently in the course of adult neurogenesis. Interestingly, the adult piriform cortex, which is usually considered non-neurogenic (even though some reports exist that state otherwise), also contains an abundant population of DCX-positive cells. We asked how similar these cells would be to DCX-positive cells in the course of adult hippocampal neurogenesis. Using BAC-generated transgenic mice that express GFP under the DCX promoter, we studied DCX-expression and electrophysiological properties of DCX-positive cells in the mouse piriform cortex in comparison with the dentate gyrus. While one class of cells in the piriform cortex indeed showed features similar to newly generated immature granule neurons, the majority of DCX cells in the piriform cortex was mature and revealed large Na+ currents and multiple action potentials. Furthermore, when proliferative activity was assessed, we found that all DCX-expressing cells in the piriform cortex were strictly postmitotic, suggesting that no DCX-positive "neuroblasts" exist here as they do in the dentate gyrus. We conclude that DCX in the piriform cortex marks a unique population of postmitotic neurons with a subpopulation that retains immature characteristics associated with synaptic plasticity. DCX is thus, per se, no marker of neurogenesis but might be associated more broadly with plasticity.
Keywords:Biological Markers, Cell Membrane, Cell Proliferation, Dentate Gyrus, Electrophysiological Phenomena, Green Fluorescent Proteins, Microtubule-Associated Proteins, Neurogenesis, Neuropeptides, Phenotype, Recombinant Fusion Proteins, Animals, Mice
Source:PLoS ONE
ISSN:1932-6203
Publisher:Public Library of Science
Volume:6
Number:10
Page Range:e25760
Date:13 October 2011
Official Publication:https://doi.org/10.1371/journal.pone.0025760
PubMed:View item in PubMed

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